Application of Vacuum Insulations in Buildingsvip-bau.de/pdf/literatur/vancouver.pdf · Symposium...

Symposium “Progress in Vacuum Insulation“, June 2000, Vancouver

Application of Vacuum Insulations in Buildings

R.Caps, U.Heinemann, J.Fricke

ZAE Bayern, Am Hubland, 97074 Wuerzburg, Germany

http://www.zae-bayern.de [email protected]

P. Randel

Wacker Chemie, Max-Schaidhauf-Str.25, 87437 Kempten, Germany

http://www.wacker.com [email protected]

U_Heinemann/Vancouver/Vancouver.ppt

Bavarian Center for Applied Energy Research

architect: Prof. Volz / Obernburg picture: © Dieter Leistner

Southern facade


Northern Façade

architect: Prof. Volz / Obernburg picture: © Dieter LeistnerU_Heinemann/Vancouver/Vancouver.ppt

Experimental Building

Experimental building was established end of 1998

installation and test of innovative façade elements

• vacuum insulations

• switchable insulations

• transparent wall insulations

• sun shading devices


daylighting system

transparent insulationswitchable insulation

vacuum insulation

rainwater storage for liquid cooling

First Installation of Vacuum Insulation Panels in a Building

Bavarian Center for Applied Energy Research


Energy Consumption Germany 1995

energy for industrial processes

26 %

light,communication

3 %

mechanical energy38 %

residential heating33 %


Thermal Insulation of Buildings

U = 0.20

U = 0.15 U = 0.15

U = 0.20

U = 0.30K m

W2

thickness of vacuum insulation (for U = 0.20 ): 20 - 30 mmK m

W2


Saving Money with Vacuum Panels

ultra low energy house:

conventional vacuum

insulation thickness 30 cm 4 cm

loss coefficient 0.13 W/m²K 0.13 W/m²KR-value 7.7 m²K/W 7.7 m²K/Wtotal thickness(17.5 cm stone)

47.5 cm 21.5 cm

saved thickness - 26 cm

Value of additional living area (@1500 EUR/m²):per m wall 375 EURper m² insulation 125 EUR


Comparison of Materials for Vacuum Panels

thermalconductivity

10-3

W/mK

maximumgas

pressurehPa

cover material

glass fibers 2 - 4 ∼ 0.1 stainless steel

organicfoams

4 - 7 ∼ 1 Al-laminated foil

microporouspowders

4 - 7 ∼ 20 Al-laminated foil

plastic barrier foil


• long life expectancy (30 - 50 years)

• moderate costs

• easy application

choice: fumed silica + Al-laminated foil

Al-laminated foil:

increase of gas pressure < 1 mbar/year

Requirements for Vacuum Insulation of Building Façades


Measurements and Samples

pyrogenic silica boards with opacifier

(WDS-SIC-NT 160 kg/m³ from Wacker / Kempten)

analysis of thermal conductivity

• radiative conductivity

• solid thermal conductivity

• influence of gas pressure

• further reduction of thermal conductivity possible?


Measurements of Core Material

sample: fumed silica powder board with opacifier160 kg/m³

apparatus: evacuable, guarded hot plate2 samples with 200 mm diameter

external pressure load: 0.1 MPa

• variation of gas pressure at 10°C

• variation of temperature of evacuated sample


Dependence on Gas Pressure

temperature: 283 K external load: 1 bar

0.001 0.01 0.1 1 10 100 10000

5

10

15

20

fit

measured

gas pressure pgas [ mbar ]

therm

al co

nd

uctiv

ity

λλ λλ

[ 10

-3 W

/(m

K)

]


Analysis

thermal conductivity, evacuated: 3.6·10-3 W/mK

gas pressure dependence:

gas

21

0gas

evacgas

p

p1

)p(

+

λ+λ=λ

� p1/2 = (630 ± 60) hPa


Dependence on Temperature

300 400 5000

5

10measured

fit

temperature T [ K ]

therm

al co

nd

uctiv

ity

λλ λλ

[ 10

-3 W

/(m

K)

]

gas pressure: < 10-3 mbar external load: 1 bar


Analysis: Temperature Dependence

E: extinction coefficient = e·ρ

fit to data: E/n² = 10000 m-1 e/n² = 61 m²/kg

at room temperature:

solid conductivity λs = 3.0 ⋅ 10-3 W/mK

radiative conductivity λr = 0.7 ⋅ 10-3 W/mK

E

TnTT

s

⋅

⋅⋅⋅+=

3

16)()(

32 σλλ


Measurement of an Evacuated Panel

sample: powder board 20 mm thick

evacuated and sealed in laminated Al-foil

apparatus: guarded hot plate, 340 x 340 mm²

including 70 mm guard ring

result: λ = 3.9 ·10-3 W/mK at room temperature


Skin

laminated Al-foil: thickness 7 µm

heat losses due to rim of 1 m² panel:

� λrim ≤ 6 ⋅ 10-3 W/mK

losses proportional to ratio circumference/area

may be reduced by double layer

Advantage: gas pressure increase less than 1 mbar/yearU_Heinemann/Vancouver/Vancouver.ppt

Installation in New ZAE-Building

• 43 m² vacuum insulation panels

• 8 segments0.9 m x 1.9 m

2 layers, 20 mm each• 1 segment

0.9 m x 2.9 m2 layers, 20 mm each

• 4 segments0.9 m x 2.9 m

1 layer, 20 mm


Manufacturing of Vacuum Panels

• silica powder boards delivered by Wacker (900 x 500 x 20 mm³)

• drying of panels at 150°C

• wrapping in laminated Al-foil

• evacuating and sealing (pgas < 1 mbar)

• test of gas pressure

• installation of panels in façade


Insulation of Southern Façadewith Panels 0.5 m x 0.9 m

double layer of vacuum panels

in order to avoid thermal

bridging

thickness: 2 x 20 mm

outside cover: card board

+ glass pane

inside cover: wooden boardU_Heinemann/Vancouver/Vancouver.ppt

Production of Vacuum Panel 0.9 x 2.9 m

20 mm thickvacuum panelAl-foil on bothsides

inside cover:glass pane

outside cover:card board + glass pane


Installation of a Vacuum Panel


Northern façade

inside view of a glass coveredvacuum panel after installation

the Al-foil covers the panel

sized 0.9 x 2.9 m² in total


Vacuum Panel behind Radiator


IR - Thermal Imaging


Application Fields in Buildings

• wall insulation (inside or outside)

• floor insulation

• ceiling insulation

• roof insulation

• breast-wall with integrated radiator

• roll shutter cases

• doors

• façade construction in combination with glazing


Vacuum Panel under Plastering

back side paste

application of primer

on front sideU_Heinemann/Vancouver/Vancouver.ppt

Vacuum Panel under Plastering

application of plaster finished


Vacuum Insulated Radiator

installation as integrated façade element


Skin

metalized high barrier foils:

• no thermal bridges � small sizes possible

• life time sufficient for cold storage (10 - 20 years)

• application possible in buildings?

(higher temperatures, longer life time required)


Conclusions

• evacuated fumed silica powder boards analysed:

thermal conductivity around 4 ·10-3 W/mK

• about 27 m² of a building façade have been

successfully vacuum insulated end of 1998no sign of deterioration of gas pressure up to now

• further projects of applications of vacuum panelsin buildings are in progress


Application of Vacuum Insulations in Buildingsvip-bau.de/pdf/literatur/vancouver.pdf · Symposium...

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